Airborne Sensors from Hexagon

Hexagon Geospatial Solutions Division (GSD)
Airborne Sensors from Hexagon
Klaus Neumann
Z/I Imaging
Klaus Neumann
Product Manager Sensor Systems
18. June 2013
Sensor portfolio 2013
DPW / Image Processing / GIS / Decision Making
Frame
PPS
XPro
Customer‘s
Business
Model
Required
Data &
Application
Mount
GNSS/IMU
Flight Management
Flight Planning
Z/I Imaging
TerraSolid
Klaus Neumann
18. June 2013
Unified Aircraft Installation
ADS100
OC60 and PD60
RCD30
Leica FlightPro
Leica MissionPro
Controler CC33
RCD30 Oblique
Novatel SPAN
Leica PAV100
Z/I DMCII
ALS70
Z/I Imaging
Klaus Neumann
18. June 2013
Target Markets for Airborne Products
Z/I DMC IIe
Remote Sensing
Leica ADS100
Leica ADS100
Mobile Mapping
Z/I DMC IIe
Engineering
3D & Smart City
Leica RCD30 UAV
Z/I Imaging
Klaus Neumann
Regional Mapping
18. June 2013
Leica RCD30 Oblique
Small UAV
The All New Leica ADS100 Airborne Digital Sensor
Z/I Imaging
Klaus Neumann
18. June 2013
Key Features Sensor Head SH100
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Focal Plate (FPM)
Total of 13 CCD lines with 20000 pixels each in three line groups (Forward, Nadir, Backward)
Pixel size 5um
TDI stages selectable 1, 2, 4, 8, 15 (1/2, ¼, 1/8, 1/16 @ Cycle time >1ms)
Two Tetrachroid beamsplitters in
Forward (25.6°) - full color RGBN –
Backward (17.7°) - full color RGBN
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One bi-Tetrachroid in
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Nadir - full color RGGBN
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Dynamic Range of CCD
72dB
Resolution A/D converter
14-bit
Data Compression
Lossless 14-bit
Recording Interval per Line (Cycle Time)
>0.5ms
Spectral Bands
Red:
Green:
Blue:
NIR:
Z/I Imaging
619-651nm
525-585nm
435-495nm
808-882nm
Klaus Neumann
18. June 2013
Key Features Sensor Head SH100
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Field of View (FoV)
Forward 65.2° across track
Nadir 77.3° across track
Backward 72.5° across track
Focal Length
62.5mm
F-number
4
Spectral Range
420-900nm
Registration Accuracy
1um
Lens Design
Telecentric lens design.
Maintains position & width of filter edges over whole FoV
Thermic and pressure compensation for high accuracy.
Flying Height Multiplier
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12.500:1
10cm GSD = 1250m AGL
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Sensor Head SH100
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Weight ~50 kg with CUS6 IMU
Height 65 cm
Diameter 39cm
ADS100
IMU integrated in Sensor Head
Leica IPAS20-CUS6 IMU integrated
Z/I Imaging
Klaus Neumann
18. June 2013
10cm GSD, 2000m Swath, 1254m AGL
Performance Indicators
Inflight QC Options
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Video Camera
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Oblique View
Swath width
17° forward
55° along x 77° across track
Waterfall Images
Waterfall images during flight available for RGB Nadir
Leica FlightPro
Full control of data acquisition parameters
Data Recording Performance
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Capacity of Mass Memory (Pair)
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Selectable single, joint or backup mode possible
Joint mode of 2.4 TB, recording time depends on configurations of data acquistion
Hot swappable in-air
Firmware & Software
Leica FlightPro Flight Management Software
Average Ground Speed (GS) for various GSD @ 0.5ms CT
GS = 120 kts for GSD of 1.2’’ / 3cm
GS = 190 kts for GSD of 2’’ / 5cm
GS = 290 kts for GSD 3’’ / 7.5cm
GS = >350 kts for GSD 4’’ / 10cm
Z/I Imaging
Klaus Neumann
18. June 2013
Key Performance Summary
 Full multispectral color swath width of 20000 pixels
in RGBN for highest data acquisition efficiency
 Selectable TDI stages for improved sensitivity and
expanded operational envelope
 Improved cycle time to acquire smaller GSDs at
faster speed
 Full color RGBN in forward, nadir and backward for
more flexible stereo interpretation
 Improved Leica PAV100 gyrostabilized mount with
adaptive control for improved image quality
 Embedded Novatel SPAN GNSS/IMU with tightly coupled
processing to reduce fuel consumption
 End-to-end workflow from mission planning with
Leica MissionPro to orthophoto and point cloud
generation with LeicaXPro
Z/I Imaging
Klaus Neumann
18. June 2013
Leica ADS100 Workflow
3DCon
Leica Xpro 6.0
Leica
Mission
Pro
Leica
Flight
Pro
Novatel
IE
Radiometry
SGM
Direct Georeferencing
Orthophoto
Atmosphere
Bundle Adjustment
Intergraph
Z/I Imaging
Klaus Neumann
18. June 2013
Total Geospatial Solutions
Leica ADS and Leica XPro
Z/I Imaging
Klaus Neumann
18. June 2013
The new DMC IIe camera system
Z/I Imaging
Klaus Neumann
18. June 2013
Key Performance Summary
 Single large format CCD for precise geometry and high radiometric
image quality
 High frame rate for efficient use of high speed aircrafts and large forward
overlap at high resolution
 Extended airborne storage of 4.8 TByte for more image capacity
 Integrated sensor management for reduced weight and compact aircraft
installation
 Embedded Novatel SPAN GNSS/IMU system with tightly coupled
processing to reduce fuel consumption
 New Leica PAV100 stabilized mount with adaptive control for improved
image quality
 Camera peripherals compatible with all Hexagon airborne sensors
 Complete end-to-end workflow from mission planning to geo-referenced
images
Z/I Imaging
Klaus Neumann
18. June 2013
Key features Z/I DMC IIe
• Sensor size
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12096 x 11200 (DMC IIe 140)
15552 x 14144 (DMC IIe 230)
16768 x 14016 (DMC IIe 250)
• Field of view
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50.7° x 47.3° (DMC IIe 140)
50.7° x 46.6° (DMC IIe 230)
45.5° x 38.6° (DMC IIe 250
• Ground resolution
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4cm – 80cm (DMC IIe 140)
3cm – 60cm (DMC IIe 230)
2cm – 50cm (DMC IIe 250
• Frame rate
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Z/I Imaging
2.2 sec (DMC IIe 140)
1.8 sec (DMC IIe 230)
1.8 sec (DMC IIe 250
Klaus Neumann
18. June 2013
Key features Z/I DMC IIe
• Optics
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customized lens design by Carl Zeiss
• Radiometry
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72dB dynamic range
14 bit A/D converter
four color channels RGBNIR
390 nm – 925 nm spectral range
• Storage
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newest SSD technology
4.8 TByte on board capacity
in-flight exchangeable
lossless data compression
• Environment
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Z/I Imaging
Weight 65 kg
Power consumption 280 W
Operating temperature -20°C to +40°
Operating altitude non pressurized 8000m
Klaus Neumann
18. June 2013
Key features Z/I DMC IIe
• OC60 Operator Console
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12.1’’ touch-screen with 1024 x 768 resolution
sunlight readable
• PD60 Pilot Display
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6.5’’ screen with 1024 x 768 resolution
Quick access buttons
• Integrated GNSS/IMU System
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integrated Novatel SPAN MPPC controller
class 5 IMU accuracy
dual frequency GNSS receiver
• Integrated sensor management
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Z/I Imaging
integrated Leica FlightPro system
no external controller box required
SW compatible with all Hexagon airborne sensors
Klaus Neumann
18. June 2013
Key Features Leica PAV100
• Improvement of performance of LeicaPAV80
• Introducing Adaptive Sensor Control for a more stable flight
• Available for all sensors, most useful for large format cameras
Z/I Imaging
Klaus Neumann
18. June 2013
Z/I DMC IIe Airborne Storage
MM30 storage modules are compatible
with RCD30 and ADS100
4.8 TByte capacity
4 x MM30 SSD modules
Exchangable in flight
small, light weight
Passive download station
for fast data copy
Z/I Imaging
Klaus Neumann
18. June 2013
Integrated GNSS/IMU system
Integrated Novatel SPAN MPPS GNSS/IMU system
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Latest multi frequency plus L-Band GPS/INS receiver technology
supports GPS L1/L2/L5, GLONASS L1/L2, SBAS and L-Band
72 channels
Class 5 IMU accuracy
Tight coupling of GNSS and IMU measurements
Multiband antenna included
Omnistar support (subscription fee not included)
No external controller required, all hardware components are integrated with DMC IIe
camera electronic
Optional support of 3rd part IMU systems
Z/I Imaging
Klaus Neumann
18. June 2013
Z/I DMC IIe Benefits
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Single large format CCD
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Long focal length
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for very high resolution and small occlusion
Square image format
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for superior geometric accuracy and best radiometric image quality
to minimize number of stereo models
Fast frame rate
 for efficient use of high speed aircrafts and high forward overlap
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Integrated sensor management and GNSS/IMU system
 Reduced weight and space requirements for aircraft installation and increased reliability
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Common sensor peripherals components
 Compatible with all Hexagon airborne sensors
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Common flight management software
 Compatible with all Hexagon airborne sensors
Z/I Imaging
Klaus Neumann
18. June 2013
Z/I DMC IIe Workflow
Pure Color
Technology
Radiometry
Leica FlightPro
OC60 and PD60
Novatel
Inertial Explorer
Leica PAV100
Atmosphere
Leica MissionPro
Z/I Imaging
Klaus Neumann
18. June 2013
Z/I DMC IIe
Z/I PPS
Info-Clouds from Frame Camera
City of Lindau
5cm GSD
DMC II 140
Z/I Imaging
Klaus Neumann
18. June 2013
RCD30 Medium format for photogrammetry
 Multispectral, coregistered RGB and IR
 Mechanical motion compensation, 2 axes
 >1 second frame rate
 50 mm and 80 mm focal length
 Stabilized lens system
 High accuracy mapping range
 Exchangeable central shutter
 B/H ratio of 0.32 @ 60% overlap (50mm)
 2 x 60MP, 6um CCD for RGB and NIR
 CC3x can control up to five CH6x
 Image size single head 8956 x 6708
 Image size dual head 13216 x 8956
 15cm GSD @ 3780ft flying height
(50mm)
 Weight CH6x 4 kg, CC3x 6kg
Z/I Imaging
Klaus Neumann
18. June 2013
RCD30 Standalone in Uno/Duo Pod
Uses Leica PAV80 for RCD30
Height
485 mm
Diameter
390 mm
Weight (incl IMU) 17.5 kg
Z/I Imaging
Klaus Neumann
18. June 2013
RCD30 Standalone Uno Pod
Height
485 mm
Diameter
390 mm
Weight (incl IMU) 17.5 kg
Z/I Imaging
Klaus Neumann
18. June 2013
Leica RCD30 for ALS and 3rd party
Uses Leica PAV80 Heavy Load
Z/I Imaging
Klaus Neumann
18. June 2013
Or installation without mount
RCD30 Oblique Penta Pod
Height
485 mm
Diameter
390 mm
Weight (incl IMU) 18 kg
Z/I Imaging
Klaus Neumann
18. June 2013
RCD30 Oblique Trio Configuration
80mm
45°
50mm
Nadir
80mm
45°
Z/I Imaging
Klaus Neumann
18. June 2013
RCD30 Oblique Penta Configuration
50mm
35°
50mm
35°
50mm
Nadir
50mm
35°
Z/I Imaging
Klaus Neumann
18. June 2013
50mm
35°
Z/I Imaging
Klaus Neumann
18. June 2013
Z/I Imaging
Klaus Neumann
18. June 2013
Z/I Imaging
Klaus Neumann
18. June 2013
Z/I Imaging
Klaus Neumann
18. June 2013
Mobile
scanning technology
Mobile laser
Mapping
Uses a laser scanner (or several scanners)
in combination with GNSS receivers,
Inertial Measurement Unit (IMU) and a
Distance Measurement Instrument (DMI)
on a mobile platform (vehicle) to acquire
accurate and precise spatial data.
Laser scanner uses an active
beam of light (laser pulses) to determine
the relative position (dX, dY, dZ) and
the reflectance properties of points
on surrounding buildings.
Z/I Imaging
Klaus Neumann
18. June 2013
The result is a cloud of points,
of a quality comparable to other
remote sensing technologies.
Leica Pegasus:One
Complete Solution-Hardware to Post-Processing
• Marries imaginary and
point cloud data into a
single calibrated, user
intuitive platform
• Plug and play with
qualified terrestrial
scanners and profilers –
no dedicated, modified
vehicles are required
• Leica Geosystems
Platform roadmap to
future portability
Z/I Imaging
Klaus Neumann
18. June 2013
Leica Pegasus:One
Complete Solution-Hardware to Post-Processing
• Balances data need with
project logistics and speed of
post-processing to deliver an
ROI enabling platform
• Provides the operator with
multiple ways to view
collected 3D points –
calibrated together
• Software enables access to
Esri ArcGIS Desktop, the
most popular GIS platform
Z/I Imaging
Klaus Neumann
18. June 2013
Leica Pegasus:One
Complete Solution-Hardware to Post-Processing
• LIDAR and image data
acquisition
• Data post-processing
• Stereoscopic 3D GIS
interface for digitising spatial
objects
• Spatial data acquisition of the
highest accuracy
Z/I Imaging
Klaus Neumann
18. June 2013
Leica Pegasus:One
IMOSS
Pegasus – Connect & Scan
Plug and Play - Connect & Scan
• No dedicated vehicle needed
• No special modifications
Z/I Imaging
Klaus Neumann
18. June 2013
Leica Pegasus:One
What
is Pegasus?
Plug and Play - Connect & Scan
• Leica Pegasus:One is field-tested and proven
• The first spatial data acquisition project
completed in 2001
• The first NovAtel GNSS/INS system
introduced in 2004
• The first test with a terrestrial laser
scanner Leica HDS6100 in 2010
• First system sold end of 2011
• First market introduction on Intergeo 2012
Z/I Imaging
Klaus Neumann
18. June 2013
Thank you!
[email protected]
Z/I Imaging
Klaus Neumann
18. June 2013